JP2018098539A - Video data transmission processing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video data transmission processing system capable of easily controlling even a configuration performing 3D or 2D display of video data, generated by two 4K or 2K imaging apparatus (camera), in a 4K3D display monitor, without becoming large scale as a whole, while restraining frame delay significantly.SOLUTION: A video data transmission processing system includes a L imaging apparatus 12 and a R imaging apparatus 14 for imaging while being juxtaposed to the left and right and coupled synchronously, a data signal transmission unit 16 for transmitting video data signal generated by the imaging while splitting, a mix switcher 18 for processing the data signal transmitted from the data signal transmission unit 16 under prescribed conditions, and a 4K3D display monitor device 20 for receiving the data signal, processed by the mix switcher 18, by 2SI system, and processing thus displaying video data based on the data signal.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a video data processing system that performs processing when video data is displayed by a 4K or 2K imaging device, and in particular, switching between 3D display or 2D display of video data by these imaging devices, and video The present invention relates to a video data transmission processing system capable of easily performing processing such as upside down, left and right inversion of data.

  Conventionally, particularly in the medical market, there has been a strong demand for 3D display of video data by an imaging device, and for this reason, 3D display systems using two 2K cameras (imaging devices) have been widely used. In order to display 3D images, it is common to convert synchronized images from two cameras using a 3D converter (Line by Line, Top and Bottom, Side by Side, etc.) and display them on a 3D display monitor. is there. Furthermore, in the medical market, recording of video data in 3D is also required.

  Incidentally, in the transmission processing of video data by the photographing apparatus, a 2SI (2-sample interleave) method is known as a transmission method based on the SDI standard for transmitting video data to the outside. That is, this is a method of transmitting in parallel by alternately assigning pixels constituting one line of video data to two channels for every two adjacent pixels. For example, Patent Document 1 employs a technique in which odd lines are assigned to two channels, even lines are assigned to two other channels, and video data is transmitted in parallel on four channels. Patent Document 2 discloses an image processing system that uses the transmission method disclosed in Patent Document 1 to improve the efficiency of video data transmission processing.

JP 2009-130639 A JP-A-2016-36114

  However, in the conventional system configuration, when a 3D display system is constructed using a 4K camera, there is no 3D converter for a 4K photographing device (camera). Therefore, as shown in FIG. A large-scale system configuration using a plurality of 3D converters (four in the figure) is required. It has also been pointed out that the frame delay of the entire system is about 2.5 frames at the minimum.

  Furthermore, using the transmission method disclosed in Patent Document 1 above, in the processing system disclosed in Patent Document 2, two 4K cameras and a 4K3D display monitor for 3D display are introduced. However, as described above, since a plurality of 3D converters for 2K cameras are required, the system configuration becomes large, and the problem of frame delay cannot be solved.

  The present invention is for solving the above-described problem, and even if the video data generated by two 4K or 2K photographing devices (cameras) is displayed in 3D or 2D on a 4K3D display monitor. Therefore, it is an object of the present invention to provide a video data transmission processing system that can be controlled easily without being overwhelming as a whole and that can greatly reduce frame delay.

In order to cope with the above-described problems, the present invention takes the following technical means.
That is, according to the first aspect of the present invention, an L photographing device and an R photographing device that are photographed in parallel on the left and right sides, and a video data signal generated by photographing with the L photographing device and the R photographing device. A data signal transmission unit for dividing and transmitting, and a mix switcher unit for performing processing on the channel to which the data signal transmitted from the data signal transmission unit is allocated under the following conditions (1) to (4): ,
(1) When transmitting a data signal as 4K3D video, among the four channels to which the data signal divided by the 2SI method from the L photographing device is assigned, two channels from the odd lines are Among the four channels to which the data signal divided by the 2SI system from the R photographing device is assigned, the data signal is transmitted as four channels, with the two channels from the even line as the bottom (2) As 4K2D video When transmitting a data signal, four channels to which a data signal divided by the 2SI system from the L photographing device is assigned, or a data signal divided by the 2SI method from the R photographing device is assigned. (3) Decode as 2K3D video. When the data signal is transmitted, the two channels to which the divided data signals from the L photographing device are assigned are moved up, and the two channels to which the divided data signals from the R photographing device are assigned are moved down. (4) When transmitting the data signal as 2K2D video, the two channels to which the divided data signals from the L photographing device are allocated are arranged above and below, or , The two channels to which the divided data signals from the R photographing device are allocated are transmitted up and down, and the data signals are transmitted as four channels. The four data signals processed by the mix switcher unit are received by the 2SI system, 4K3D display monitor that displays video data based on the data signal by processing A video data transmission processing system, comprising a location.

  The invention according to claim 2 is the video data transmission processing system according to claim 1, wherein the mix switcher unit is configured to transmit the data signal transmitted from the data signal transmission unit to the (1) or ( In the case of performing the processing under the condition 3), the 4K3D display monitor device alternately outputs a data signal from the L imaging device and a data signal from the R imaging device, and scan lines of odd lines, respectively. The video data is displayed by video processing by a line-by-line method assigned to even-numbered scanning lines.

  The invention according to claim 3 is the video data transmission processing system according to claim 2, wherein the odd-numbered lines and the even-numbered lines are alternately arranged on the display surface of the 4K3D display monitor device. It is characterized in that a deflection filter is pasted.

  The invention according to claim 4 is the video data transmission processing system according to any one of claims 1 to 3, wherein the mix switcher unit performs processing under the condition (1) or (3). In the case of performing, when receiving a reversal processing signal of video data to be displayed on the 4K3D display monitor device, two channels from the L photographing device being processed and two channels from the R photographing device Each of the above is replaced, and a process of transmitting a data signal as four channels is performed.

  Furthermore, the invention according to claim 5 is the video data transmission processing system according to any one of claims 1 to 4, wherein the mix switcher unit receives the 3D / 2D switching signal, It is characterized in that mutual switching of processing under the conditions 1) and (2) or mutual switching control of processing under the conditions (3) and (4) is performed. A sixth aspect of the present invention is the video data transmission processing system according to any one of the first to fifth aspects, wherein the L photographing device and the R photographing device are images displayed on the 4K3D display monitor device. When the zoom signal of the data is received, the zoom control is performed in the L photographing device and the R photographing device, and when the up / down / left / right inverted signal of the video data to be displayed on the 4K3D display monitor device is received. The L photographing device and the R photographing device perform up / down / left / right reversal control.

  A seventh aspect of the present invention is the video data transmission processing system according to any one of the first to sixth aspects, wherein the four data signals transmitted from the data signal transmission unit are received by the 2SI system. , A 4K recording device for recording is provided.

  According to the present invention, no special signal processing is required for video data in 4K / 2K shooting, and two left and right shooting devices are controlled by Genlock (synchronous coupling) to perform 2SI transmission (in the case of 4K shooting). Thus, 3D / 2D display can be performed with a small-scale system without special image processing. Furthermore, it is possible to greatly suppress frame delay in transmission of video data. Since it is easy to control 3D / 2D display switching, up / down / left / right reversal of images, zoom shooting, etc., it is possible to meet the needs in the medical market.

1 shows a first embodiment of a video data transmission processing system according to the present invention, where (a) is a system configuration diagram, (b) is a transmission image of a data signal as 4K3D video, and (c) is 4K2D video. This is a transmission image of the data signal. It is the figure which showed the image of the data division by 2SI system in 1st Embodiment of the video data transmission processing system which concerns on this invention. It is the conceptual diagram which showed control of the mix switcher part in 1st Embodiment of the video data transmission processing system which concerns on this invention. 2 shows a second embodiment of a video data transmission processing system according to the present invention, where (a) is a system configuration diagram, (b) is a transmission image of a data signal as 2K3D video, and (c) is 2K2D video. This is a transmission image of the data signal. It is the figure which showed the image of the data division | segmentation in 2nd Embodiment of the video data transmission processing system which concerns on this invention. It is the conceptual diagram which showed control of the mix switcher part in 2nd Embodiment of the video data transmission processing system which concerns on this invention. It is the figure which showed the structure of the conventional 4K3D system.

  A video data transmission processing system according to a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a first embodiment of a video data transmission processing system according to the present invention. (A) is a system configuration diagram, (b) is a transmission image of a data signal as 4K3D video, and (c). Is a transmission image of a data signal as 4K2D video, FIG. 2 is a diagram showing an image of data division by the 2SI method in the first embodiment of the video data transmission processing system according to the present invention, and FIG. It is the conceptual diagram which showed control of the mix switcher part in 1st Embodiment of the video data transmission processing system which concerns on this invention.

  As for codes, 10 is a video data transmission processing system, 12 is an L imaging device, 14 is an R imaging device, 16 is a data signal transmission unit, 18 is a mix switcher unit, 20 is a 4K3D display monitor device, 22 is a 4K recording device, Reference numeral 24 denotes a foot switch.

  First, as shown in FIG. 1, the video data transmission processing system 10 according to the present embodiment includes an L photographing device 12 and an R photographing device 14 that are Genlocked (synchronously coupled) to each other and are photographed side by side. , A data signal transmission unit 16 that divides and transmits a video data signal generated by photographing by the L photographing device 12 and the R photographing device 14 according to the 2SI system, and a process for the data signal transmitted from the data signal transmission unit 16 And a 4K3D display monitor device 20 for displaying video data by receiving and processing the data signal processed by the mix switcher unit 18 by the 2SI system.

  In the present embodiment, the photographing by the L photographing device 12 and the R photographing device 14 is based on 4K, and the mix switcher unit 18 applies the data signal transmitted from the data signal transmission unit 16 under the following conditions. The processing is performed.

  That is, when a data signal is transmitted as 4K3D video, as shown in FIGS. 1A, 1B, and 2, the data signal divided by the 2SI system by the data signal transmission unit 16 of the L photographing device 12 is used. Of the four channels assigned to the odd-numbered line, the two channels assigned from the odd lines are divided into 2SI systems by the data signal transmission unit 16 of the R photographing device 14 (AL and BL in the figure). Of the four channels to which the assigned data signal is assigned, the data signal is transmitted as four channels, with the two channels assigned from the even lines as the bottom (CR, DR in the figure). .

  Further, when transmitting a data signal as 4K2D video, as shown in FIGS. 1A, 1C, and 2, the data signal divided by the 2SI system from the L photographing device 12 is assigned 4. The data signal is transmitted as one channel or four channels to which the data signal divided by the 2SI method from the R photographing device 14 is assigned.

  Further, the video data transmission processing system 10 according to the present embodiment, as in the second embodiment to be described later, is a mix switcher when transmitting a data signal as 2K3D video and when transmitting data as 2K2D video. The unit 18 is configured to perform each predetermined control on the data signal (details will be described in the second embodiment).

  Next, the video data transmission processing system 10 in this embodiment will be described in detail. As shown in FIG. 1, the video data transmission processing system 10 according to the present embodiment includes an L imaging device 12 and an R imaging device 14 that are Genlocked (synchronously coupled) with each other, A 4K camera is used.

  The video data generated by the L photographing device 12 and the R photographing device 14 is transmitted by the data signal transmission unit 16 through the 3GSDI interface. At this time, in this embodiment, as shown in FIG. 2, the data signal transmission unit 16 performs control to allocate, divide, and transmit to each of four channels by the 2SI system.

  Subsequently, in this embodiment, the mix switcher unit 18 transmits the data assigned to the four channels from the L photographing device 12 and the four channels from the R photographing device 14 transmitted from the data signal transmission unit 16. Receive signals and process them. Specifically, when transmitting as 4K3D video, as shown in FIGS. 1 (a) and 1 (b), out of the four channels of the L photographing device 12, the two channels assigned from the odd lines are used. Among the four channels of the R photographing device 14, data signals are transmitted as four channels, with the two channels assigned from the even lines as the bottom (see FIG. 2).

  Further, when transmitting as 4K2D video, as shown in FIGS. 1A and 1C, any one of four channels of the L photographing device 12 or four channels of the R photographing device 14 is displayed. Data signals are transmitted as one channel. Thus, the configuration of the present embodiment can easily control switching between 3D display and 2D display.

  For example, switching from the L photographing device 12 to the R photographing device 14 or the R photographing device 14 by sending a switching signal of the photographing device generating the currently selected data signal to the mix switcher unit 18. Control such as switching from the photographing device 14 to the L photographing device 12 can be easily performed.

  Subsequently, in the present embodiment, the 4K3D display monitor device 20 capable of displaying video data based on the data signal by receiving and processing the data signal processed by the mix switcher unit 18 by the 2SI method is provided. Is provided. Note that the 4K3D display monitor device 20 can perform 3D display and 2D display. In the case of 3D display, the data signal from the L imaging device 12 is set to an odd number of scanning lines, and the data signal from the R imaging device 14 is set to an even number line. The video data is displayed by video processing according to a line-by-line system that is assigned to the scanning lines or vice versa.

  Furthermore, in this embodiment, since the circular deflection filters with different angles are pasted on the display surface (monitor screen) of the 4K3D display monitor device 20 alternately on odd lines and even lines, only 2SI input is supported. As a 4K3D display monitor device 20, 4K high-definition 3D images can be easily obtained without reducing the horizontal resolution by using circularly deflected glasses without special signal processing or image processing. Can be watched. In 2D display, viewing can be easily performed regardless of the presence or absence of the circular deflection glasses.

  Subsequently, when the mix switcher unit 18 receives a reversal processing signal of video data to be displayed on the 4K3D display monitor device 20, when the video is in 3D display, as shown in FIG. Of these four channels, the two channels assigned from the odd lines and the two channels assigned from the even lines among the four channels of the R photographing device 14 are exchanged (L / R exchange). ) Control to transmit data signals as four channels.

  In the medical field and the like, the camera may be photographed through the lens optical system. In this case, the image is reversed up and down, but the left and right images are captured on the photographing device (12, 14) or the 4K3D display monitor device 20 side. It is easy to perform the upside down process (particularly, from the viewpoint of display speed, it is preferable to perform the inversion process on the photographing apparatus side). However, when the reversal process is performed in the photographing devices (12, 14), the left and right are optically interchanged. However, in the 4K3D display monitor device 20 with respect to the mix switcher unit 18 as in the present embodiment. If the inversion processing signal of the video data to be displayed is output, the processing is performed as described above, so that the 4K3D display monitor device 20 can easily observe a normal image.

When the mix switcher unit 18 receives the inversion signal again, as shown in FIG. 3, among the four channels of the L photographing device 12, two channels assigned from odd lines and R Of the four channels of the imaging device 14, the two channels assigned from the even lines are exchanged again (L / R exchange), and control is performed to transmit the data signal as four signals (channels). It will be.

  In the present embodiment, the L photographing device 12 and the R photographing device 14 perform zoom control by adjusting a zoom lens or the like when receiving a zoom signal of video data to be displayed on the 4K3D display monitor device 20. Since it is configured, it is particularly useful in the medical field as described above.

  Furthermore, in the present embodiment, as shown in FIG. 1, a 4K recording device that receives and records four channels transmitted from the data signal transmission unit 16 via the mix switcher unit 18 in the 2SI system (input). 22 is provided so that the video data subjected to the above-described processes can be recorded. The video data recorded in the 4K recording device 22 can be displayed on the 4K3D display monitor device 20.

  In the present embodiment, the foot switch 24 is connected to the L photographing device 12, the R photographing device 14, and the mix switcher unit 18, respectively. The foot switch 24 can be operated by a foot, and sends a signal for performing zoom control and a signal for performing up / down / left / right reversal control of video data to the L photographing device 12 and the R photographing device 14. In this case, it is used when a 3D and 2D display switching signal, an inversion (L / R switching) processing signal, etc. are sent to the mix switcher unit 18.

  Next, a second embodiment of the video data transmission processing system according to the present invention will be described with reference to the drawings. FIG. 4 shows a second embodiment of the video data transmission processing system according to the present invention, where (a) is a system configuration diagram, (b) is a transmission image of a data signal as 2K3D video, and (c). Is a transmission image of a data signal as 2K2D video, and FIG. 5 is a diagram showing an image of data division in the second embodiment of the video data transmission processing system according to the present invention. FIG. 6 is a conceptual diagram showing control of the mix switcher unit in the second embodiment of the video data transmission processing system according to the present invention. The reference numerals are the same as those in FIG.

  As shown in FIG. 4, the video data transmission processing system 10 according to the present embodiment is similar to the first embodiment. 12 and the R imaging device 14, a data signal transmission unit 16 that divides and transmits a video data signal generated by imaging by the L imaging device 12 and the R imaging device 14, and is transmitted from the data signal transmission unit 16. A mix switcher unit 18 that performs processing on the data signal to be processed, and a 4K3D display monitor device 20 that displays video data by receiving and processing the data signal processed by the mix switcher unit 18 using the 2SI system are provided. Yes.

  In the present embodiment, the photographing by the L photographing device 12 and the R photographing device 14 is based on 2K, and the mix switcher unit 18 applies the data signal transmitted from the data signal transmission unit 16 under the following conditions. The processing is performed.

  That is, when a data signal is transmitted as 2K3D video, as shown in FIGS. 4A, 4B, and 5, the data signal divided by the 2K (HD) output of the L photographing device 12 is assigned. The two channels assigned above (AL and B-L in the figure) and the two channels assigned with the data signals divided by the 2K (HD) output of the R photographing device 14 are shown below (in the figure). Then, the data signal is transmitted as four channels, which are CR and DR).

  When transmitting a data signal as 2K2D video, as shown in FIGS. 4A, 4C, and 5, data of either the L photographing device 12 or the R photographing device 14 is used. The signal transmission unit 16 transmits the data signal as four channels with the two channels assigned with the data signal divided by the 2K (HD) output up and down (in the figure, A-L, B-L, A-L, B-L). Because of such a configuration, switching between 3D display and 2D display can be easily controlled.

  Furthermore, the video data transmission processing system 10 according to the present embodiment is also defined when a data signal is transmitted as 4K3D video and when data is transmitted as 4K2D video, respectively, as in the first embodiment described above. In addition, the data switch can be controlled by the mix switcher unit 18 (refer to the first embodiment for details).

  Next, the video data transmission processing system 10 in this embodiment will be described in detail. As shown in FIG. 4, the video data transmission processing system 10 in the present embodiment includes an L imaging device 12 and an R imaging device 14 that are Genlocked (synchronously coupled) with each other, A camera for 2K shooting is used.

  The video data from the L photographing device 12 and the R photographing device 14 is transmitted by the data signal transmission unit 16 through the 3GSDI interface. At this time, in the present embodiment, as shown in FIG. 5, the data signal transmission unit 16 performs control to divide and transmit each signal into two signals by normal 2K (HD) output.

  Subsequently, in the present embodiment, the mix switcher unit 18 receives two channels from the L photographing device 12 and two channels from the R photographing device 14 transmitted from the data signal transmission unit 16, and receives them. Process it. Specifically, in the case of transmitting as 2K3D video, as shown in FIGS. 4A and 4B, the two channels of the L photographing device 12 are on the top and the two channels of the R photographing device 14 are on the bottom. The data signal is transmitted as four channels.

  When transmitting as 2K2D video, as shown in FIGS. 4A and 4C, either one of the two channels of the L photographing device 12 or the two channels of the R photographing device 14 is set to the upper and lower sides. In addition, data signals are transmitted as four channels. Thus, the configuration of the present embodiment can easily control switching between 3D display and 2D display.

  As in the first embodiment described above, for example, from the L photographing device 12 by sending a switching signal of the photographing device generating the currently selected data signal to the mix switcher unit 18. Control such as switching to the R photographing device 14 or switching from the R photographing device 14 to the L photographing device 12 can be easily performed.

  Subsequently, in the present embodiment, the 4K3D display monitor device 20 capable of displaying video data based on the data signal by receiving and processing the data signal processed by the mix switcher unit 18 by the 2SI method is provided. Is provided. In the present embodiment, 2K shooting is performed, but even in that case, the 4K3D display monitor device 20 is used.

  Further, the 4K3D display monitor device 20 can perform 3D display and 2D display. Similarly to the first embodiment, in the case of 3D display, the data signal from the L imaging device 12 is set to an odd number of scanning lines, and the R imaging device. The video data is displayed by the video processing by the line-by-line method in which the data signal 14 is assigned to the even-numbered scanning lines.

  Furthermore, since the circular deflection filter is pasted on the display surface (monitor screen) of the 4K3D display monitor device 20 as in the first embodiment, the 4K3D display monitor device 20 is only compatible with 2SI input. By using circularly polarized glasses without special signal processing or image processing, 2K high-definition 3D images can be easily viewed without reducing the horizontal resolution with little delay. It has become.

  Subsequently, in the present embodiment, when the mix switcher unit 18 receives a reversal processing signal of video data to be displayed on the 4K3D display monitor device 20, when the video is in 3D display, as shown in FIG. The two channels of the L photographing device 12 and the two channels of the R photographing device 14 are exchanged (L / R exchange), and control is performed to transmit data signals as four channels.

  Therefore, in this embodiment, like the first embodiment, it functions as a particularly effective system in the medical field. When the mix switcher unit 18 receives the inversion signal again, the two channels of the L photographing device 12 and the two channels of the R photographing device 14 are switched again as shown in FIG. In the above (L / R switching), control is performed so that data signals are transmitted as four channels.

  Also in the present embodiment, the L photographing device 12 and the R photographing device 14 perform zoom control by adjusting the zoom lens and the like when receiving a zoom signal of video data displayed on the 4K3D display monitor device 20. Since it is configured, it is particularly useful in the medical field.

Further, as shown in FIG. 4, a 4K recording device 22 is provided for receiving and recording four channels transmitted from the data signal transmission unit 16 via the mix switcher unit 18 in the 2SI system (input). The video data that has been subjected to the above-described processes can be recorded. The video data recorded in the 4K recording device 22 can be displayed on the 4K3D display monitor device 20.

  Also in this embodiment, the foot switch 24 is connected to each of the L photographing device 12, the R photographing device 14, and the mix switcher unit 18, and outputs a control signal similar to that in the first embodiment. It is possible. As described above, the current 2K camera is equipped with video processing, video flip, and zoom functions in all models, and there is a delay of one frame. According to the video data processing system of this embodiment, For example, since the 4SI display monitor apparatus receives the 2SI system, it is possible to delay several lines, and it is possible to suppress the delay of one frame + several lines in total until display.

  The present invention can easily perform 3D / 2D display with a small-scale system without special signal processing or image processing of the video data in 4K shooting or 2K shooting. It can be particularly suitably used in a narrow environment. Further, even in a shooting site where 2D display or up / down / left / right reversal processing by a shooting device is not performed, the configuration of the present invention using two shooting devices and a 4K3D display monitor device makes it easier. 3D display can be performed.

DESCRIPTION OF SYMBOLS 10 Image | video data transmission processing system 12 L imaging | photography apparatus 14 R imaging | photography apparatus 16 Data signal transmission part 18 Mix switcher part 20 4K3D display monitor apparatus 22 4K recording apparatus 24 Foot switch

Claims (7)

An L photographing device and an R photographing device which are synchronously coupled to each other and photographed side by side;
A data signal transmission unit for dividing and transmitting a video data signal generated by photographing with the L photographing device and the R photographing device;
A mix switcher unit that performs processing on the channel to which the data signal transmitted from the data signal transmission unit is allocated under the following conditions (1) to (4):
(1) When transmitting a data signal as 4K3D video, among the four channels to which the data signal divided by the 2SI method from the L photographing device is assigned, two channels from the odd lines are Among the four channels to which the data signal divided by the 2SI system from the R photographing device is assigned, the data signal is transmitted as four channels, with the two channels from the even line as the bottom (2) As 4K2D video When transmitting a data signal, four channels to which a data signal divided by the 2SI system from the L photographing device is assigned, or a data signal divided by the 2SI method from the R photographing device is assigned. (3) Decode as 2K3D video. When the data signal is transmitted, the two channels to which the divided data signals from the L photographing device are assigned are moved up, and the two channels to which the divided data signals from the R photographing device are assigned are moved down. (4) When transmitting the data signal as 2K2D video, the two channels to which the divided data signals from the L photographing device are allocated are arranged above and below, or , The two channels to which the divided data signals from the R photographing device are allocated are transmitted up and down, and the data signals are transmitted as four channels. The four data signals processed by the mix switcher unit are received by the 2SI system, 4K3D display monitor that displays video data based on the data signal by processing And location,
A video data transmission processing system comprising:   When the mix switcher unit performs processing on the data signal transmitted from the data signal transmission unit under the condition (1) or (3), the 4K3D display monitor device receives from the L imaging device. Video data is displayed by video processing by a line-by-line method in which a data signal and a data signal from the R photographing device are alternately allocated to an odd-numbered scanning line and an even-numbered scanning line, respectively. The video data transmission processing system according to claim 1, wherein:   3. The video data transmission processing system according to claim 2, wherein circular deflection filters having different angles are pasted on the display surface of the 4K3D display monitor device alternately to the odd lines and the even lines.   When the mix switcher unit performs processing under the condition (1) or (3), the mix switcher unit performs processing when receiving an inversion processing signal of video data to be displayed on the 4K3D display monitor device. The two channels from the L photographing device and the two channels from the R photographing device are respectively exchanged, and processing for transmitting a data signal as four channels is performed. The video data transmission processing system described in the section.   When the 3D / 2D switching signal is received, the mix switcher unit switches between processes under the conditions (1) and (2) or processes under the conditions (3) and (4). 5. The video data transmission processing system according to claim 1, wherein mutual switching control is performed.   When the L photographing device and the R photographing device receive a zoom signal of video data to be displayed on the 4K3D display monitor device, the L photographing device and the R photographing device perform zoom control and the 4K3D display monitor. 6. An up / down / left / right reversing control is performed in the L photographing device and the R photographing device when a vertical / horizontal inversion signal of video data of video data to be displayed in the apparatus is received. The video data transmission processing system described in the section.   The video data transmission according to any one of claims 1 to 6, further comprising a 4K recording device for receiving and recording four data signals transmitted from the data signal transmission unit by a 2SI system. Processing system.

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